CN211832693U - Pupa cicada culture medium production system - Google Patents

Abstract

The utility model provides a pupa cicada culture medium production system, which comprises a workbench, a cleaning unit, a cleaning detection unit, one or more feeding units, a sealing unit and a mixing unit, wherein the cleaning unit, the cleaning detection unit, the one or more feeding units, the sealing unit and the mixing unit are sequentially arranged on the workbench; the workbench comprises an upper frame and a lower frame; the cleaning unit comprises a cleaning instrument arranged on the lower frame and used for cleaning the culture medium container; the cleaning detection unit comprises a detection lamp arranged on the upper frame; the feeding unit comprises a feeding device arranged on the upper frame and a weighing device arranged on the lower frame; the sealing unit comprises a sealing device for sealing the culture medium container; the mixing unit comprises a shaking table arranged on the lower frame and is used for uniformly mixing the materials in the culture medium. The beneficial effects of the utility model reside in that, wash-bottle, material loading, sealed all adopt mechanized operation, reduce manual operation's participation, guarantee the health in the production process, improve production efficiency.

Description

Pupa cicada culture medium production system

Technical Field

The utility model belongs to culture medium production field, concretely relates to pupa cicada culture medium production system.

Background

In the large-scale industrial production process of the pupa cicada culture medium, the procedures of cleaning, proportioning, mixing materials and the like are carried out.

The production process of culture medium, too much manual operation process, difficult management and easily cause miscellaneous fungus pollution, moreover, in the batching process, if all adopt manual batching, operation such as title material, consume time long, inefficiency, still need the manual work to seal after the material loading, further increased the probability that miscellaneous fungus sneaks into the culture medium.

SUMMERY OF THE UTILITY MODEL

Reduce the participation of manual operation in the production process of the cicada pupa culture medium, reduce the incorporation of the mixed fungus of culture medium, the utility model provides a cicada pupa culture medium production system.

The specific technical scheme is as follows:

a production system of a pupa cicada culture medium is characterized by comprising a workbench, a cleaning unit, a cleaning detection unit, one or more feeding units, a sealing unit and a mixing unit, wherein the cleaning unit, the cleaning detection unit, the one or more feeding units, the sealing unit and the mixing unit are sequentially arranged on the workbench;

the workbench comprises an upper frame and a lower frame;

the cleaning unit comprises a cleaning instrument arranged on the lower frame and used for cleaning the culture medium container;

the cleaning detection unit comprises a detection lamp arranged on the upper frame;

the feeding unit comprises a feeding device arranged on the upper frame and a weighing device arranged on the lower frame;

the sealing unit comprises a sealing device for sealing the culture medium container;

the mixing unit comprises a shaking table arranged on the lower frame and is used for uniformly mixing the materials in the culture medium.

Compared with the prior art, the beneficial effects of the utility model reside in that, wash-bottle, material loading, sealed all adopt mechanized operations, reduce manual operation's participation, guarantee the health in the production process, improve production efficiency.

Further, the pupa cicada culture medium production system further comprises a transportation unit, and the transportation unit is a transportation conveyor belt or a mechanical arm.

The beneficial effect of adopting the further technical scheme is that: and an automatic transportation mode is adopted, so that further automation of production can be realized, and time and labor are saved.

Further, the cleaning instrument is an ultrasonic cleaning instrument.

Further, the detection lamp is an incandescent lamp.

Furthermore, the feeding device comprises a feeding funnel, the feeding funnel comprises a feeding body and a discharging channel arranged below the feeding body, and an opening and closing switch is arranged inside the discharging channel and used for opening or closing the feeding channel.

Furthermore, the feeding device also comprises an infrared positioner, and the infrared positioner is connected with the weighing device and the opening and closing switch and sleeved outside the discharging channel in a sleeving manner;

the opening and closing switch comprises a material blocking sheet arranged in the discharging channel and an electromagnetic valve partially embedded in the material blocking sheet; the infrared positioner is connected with the electromagnetic valve, and the electromagnetic valve opens or closes the discharging channel by receiving signals of the infrared positioner.

The beneficial effect of adopting the further technical scheme is that: adopt infrared location to carry out the material loading, guarantee that the material loading is accurate, avoid the material to spill.

Further, the feeding funnel is detachably connected to the upper frame, and a feeding hole is formed in the feeding funnel.

The beneficial effect of adopting the further technical scheme is that: make things convenient for the feeding funnel to add the material, do benefit to and conveniently disassemble.

Further, sealing device includes cam, slide bar, connecting rod and articulated part, the below of cam is provided with the track, be provided with on the track and follow gliding slide bar from top to bottom of track, the slide bar resets by the resetting means drive, slide bar below symmetry is provided with two connecting rods, the both sides of cam still are provided with articulated part, articulated part is including the articulated shaft that is located the upper end and the C type body of rod that sets up in the articulated shaft below, still be provided with the arch that is used for preventing the free landing of rubber band on the C type body of rod, the one end of connecting rod articulates in the slide bar below, and the other end articulates on articulated part, and when the cam rotated, spaced drive slide bar reciprocated, and the slide bar passes through the opening and shutting of articulated part below of connecting.

Further, the cam is connected with a motor through a belt, and the motor drives the cam to rotate.

The adoption of the further preferable beneficial effects is as follows: through setting up the cam and can propping up the articulated parts of rubber band, realize articulated parts below open-ended change through the cam, prop up the rubber band at articulated parts lower extreme hour at the opening, the cam rotates, drive articulated parts lower extreme opening grow, place the blake bottle in the below after the opening grow, stir the rubber band and drop from articulated parts and get off directly sealed with the blake bottle, this process need not the workman and props big back with the rubber band manually and carry out the packing sealed, the injury of rubber band to workman's hand has been reduced.

Drawings

FIG. 1 is a schematic diagram of a cicada culture medium production system according to an embodiment;

FIG. 2 is a view showing the construction of a charging apparatus according to an embodiment;

FIG. 3 is a block diagram of an automatic mode switch;

FIG. 4 is a diagram of a manual mode on/off switch;

FIG. 5 is a view showing the structure of the sealing device;

FIG. 6 is a side view of the sealing device;

in the drawings, the components represented by the respective reference numerals are listed below:

1-workbench, 2-ultrasonic cleaning instrument, 3-detection lamp, 4-feeding unit, 5-sealing device, 6-shaking table, 7-manipulator, 4A-feeding device, 4B-weighing device, 101-upper frame, 102-lower frame, 401-feeding funnel, 4011-feeding body, 4012-discharging channel, 402-on-off switch, 403-infrared positioner, 402A-automatic on-off switch, 4021A-resistance piece, 4022A-electromagnetic column, 4023A-iron column, 4024A-first spring, 402B-manual on-off switch, 4021B-resistance piece, 4022B-sealing part, 4023B-handle, 4013-connecting part, 4014-feeding port, 501-cam, 502-sliding rod, 503-connecting rod, 504-hinged part, 505-second spring, 506-bulge, 507-deflector rod, 508-transverse shaft, 5081-clamping groove, 5041-hinged shaft and 5042-C-type rod body.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

Examples

A pupa cicada culture medium production system comprises a workbench 1, and a cleaning unit, a cleaning detection unit, one or more feeding units 4, a sealing unit and a mixing unit which are sequentially arranged on the workbench 1; the workbench comprises an upper frame 101 and a lower frame 102; the number of the feeding units 4 can be set according to the types of materials contained in the culture medium, and the feeding is carried out separately; if the culture medium is present, a plurality of feeding units 4 may be provided to feed a plurality of culture medium containers at one time.

The cleaning unit comprises an ultrasonic cleaning instrument 2 arranged on the lower frame and used for cleaning the culture medium container; the cleaning detection unit comprises an incandescent lamp 3 which is arranged on the upper frame, and the incandescent lamp 3 is used for detecting whether the culture medium container is cleaned or not through illumination. The feeding unit 4 comprises a feeding device 4A arranged on the upper frame 101 and a weighing device 4B arranged on the lower frame 102, a culture medium container is placed on the weighing device 4B, and the feeding device 4A is used for feeding; the sealing unit comprises a sealing device 5 for sealing the culture medium container after being filled; the mixing unit comprises a shaking table 6 mounted on the lower rack 102 for uniformly mixing the materials in the culture medium.

The feeding device 4A comprises a feeding funnel 401, the feeding funnel 401 comprises a feeding body 4011 and a discharging channel 4012 arranged below the feeding body 4011, and an opening and closing switch 402 is arranged inside the discharging channel 4012 and used for opening or closing the feeding channel 4012.

Feed hopper 401 is equipped with connecting portion 4013, is equipped with the external screw thread on connecting portion 4013, is equipped with the mounting groove on the upper ledge, and the mounting groove is equipped with the internal thread with external screw thread matched with, feed hopper 401 through connecting portion 4013 with the mounting groove can dismantle connect in on the upper ledge 101, feed inlet 4014 has been seted up to feed hopper 401, inside the culture medium material got into feed hopper 401 through feed inlet 4014.

In this embodiment, the on-off switch adopts an automatic mode, such as the automatic on-off switch 402A shown in fig. 3, the automatic on-off switch 402A includes a material blocking sheet 4021A disposed inside the discharging channel and an electromagnetic valve partially embedded inside the material blocking sheet 4021A; the electromagnetic valve comprises an electromagnetic column 4022A and an iron column 4023A, the iron column 4023A is partially embedded in a material blocking piece 4021A, the iron column 4023A is connected with the electromagnetic column 4022A through a first spring 4024A, the electromagnetic column 4023A generates magnetic force after electrification to attract the iron column 4023A, the first spring 4024A is in a compressed state, a gap is generated between the material blocking piece 4021A and the iron column 4023A, and materials are reserved from the gap; after power failure, the first spring 4024A resets, the iron column 4023A restores, and the gap is sealed; at this moment, the feeding device 4A further includes an infrared positioner 403, the infrared positioner 403 is connected with the weighing device 4B and the on-off switch, and is sleeved outside the discharging channel 4012, as shown in the figure, the infrared positioner 403 is switched on and off by receiving signals of the weighing device, and the electromagnetic valve is used for opening or closing the discharging channel 4012 by receiving the signals of the infrared positioner 403.

The on-off switch can adopt a manual mode, such as a manual on-off switch 402B shown in fig. 4, the manual on-off switch 402B comprises a material blocking sheet 4021B arranged in the discharging channel 4012 and a manual valve partially embedded in the material blocking sheet, and the manual valve comprises a sealing part 4022B partially embedded in the material blocking sheet and a handle 4023B arranged outside the discharging channel and connected with the sealing part 4022B; after the culture medium container is aligned to the discharging channel 4012, the handle 4023B pulls out a part of the sealing part 4022B, materials are left in a gap formed by the sealing part 4022B and the material blocking sheet 4021B, the gap is closed after the weight is weighed, and the infrared positioner 403 does not need to be installed at this time.

As shown in fig. 5, the sealing device 5 includes a cam 501, a slide rod 502, a connecting rod 503 and a hinge member 504, a track is arranged below the cam 501, a sliding rod 502 capable of sliding up and down along the track is arranged on the track, the slide bar 502 is driven by a reset device to reset, two connecting rods 503 are symmetrically arranged below the slide bar 502, hinge parts 504 are further provided at both sides of the cam 501, the hinge parts 504 include a hinge shaft 5041 at an upper end and a C-shaped bar 5042 provided below the hinge shaft 5041, the C-shaped rod 5042 is further provided with a protrusion for preventing the rubber band from freely sliding off, one end of the connecting rod 503 is hinged below the sliding rod 502, the other end is hinged on the hinge component 504, when the cam rotates, the sliding rod is driven to move up and down at intervals, and the sliding rod 502 controls the opening and closing of the lower part of the hinged part through a connecting rod 503. The cam 501 is connected with a motor through a belt, and the motor drives the cam to rotate.

Slide bar 502 is located the top initial position, slide bar 502 passes through connecting rod 503 and drives articulated part 504 and rotate around the articulated shaft top, the opening of two articulated part below is in the minimum state, at this moment, the staff will be equipped with the culture medium container of material and place in on lower carriage 102, the rubber band cover is established on the type body of rod, the rubber band is blockked simultaneously by arch 506 and can not drop, cam 501 rotates, cam 501 can be the spaced promotion slide bar 502 along the track gliding, the lower extreme of slide bar 502 moves down, because articulated shaft 5041 upper end of articulated part 504 is fixed, therefore, slide bar 502 accessible connecting rod 503 drives the opening grow of two articulated part 504 below, place the blake bottle between two articulated part 504 this moment, manual stirring rubber band gets down, the rubber band has been overlapped on the blake bottle bottleneck promptly.

In this embodiment, the returning device is a second spring 505, and both ends of the second spring 505 are respectively fixed on the two hinge parts 504. When the two hinged members 504 are at the minimum opening, the spring is in the normal state, and when the two hinged members 504 are at the maximum opening, the second spring 505 is in the pulling state.

In this embodiment, we also set up a material poking device for poking the rubber band down.

Specifically, the material shifting device comprises a shifting rod 507, the lower end of the shifting rod 507 is hinged to a C-shaped rod 5042, and a hinged point of the shifting rod 507 is not higher than the horizontal height of a protrusion, so that the shifting rod can smoothly shift down a rubber band.

In this embodiment, as shown in fig. 6, the C-shaped rod 5042 is further provided with two upper and lower parallel horizontal shafts, the lower part of the shift lever 507 is hinged to the lower horizontal shaft 508, the upper horizontal shaft 508 is provided with a slot 5081 capable of clamping the upper part of the shift lever, and the shift lever 507 can be manually pulled out of the slot 5081 during material shifting.

In this embodiment, install the rocking handle that drives cam pivoted on the cam, in addition, the rotation of cam also can drive through the motor, and the cam passes through the belt promptly and is connected with the motor, and motor drive cam rotates.

In this embodiment, the system for producing the cicada pupa culture medium further comprises a transportation unit, which is a manipulator 7.

The medium container is transported to the respective operation units by the robot 7.

The culture medium container may be manually transported to each operation unit with adjustment according to production conditions.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (9)

1. A production system of a pupa cicada culture medium is characterized by comprising a workbench (1), a cleaning unit, a cleaning detection unit, one or more feeding units (4), a sealing unit and a mixing unit, wherein the cleaning unit, the cleaning detection unit, the one or more feeding units (4), the sealing unit and the mixing unit are sequentially arranged on the workbench (1);

the workbench (1) comprises an upper frame (101) and a lower frame (102);

the cleaning unit comprises a cleaning instrument (2) arranged on the lower frame (102) and used for cleaning the culture medium container;

the cleaning detection unit comprises a detection lamp (3) arranged on the upper frame (101);

the feeding unit comprises a feeding device (4A) arranged on the upper frame (101) and a weighing device (4B) arranged on the lower frame (102);

the sealing unit comprises a sealing device (5) for sealing the culture medium container;

the mixing unit comprises a shaking table (6) arranged on the lower frame and used for uniformly mixing the materials in the culture medium.

2. The pupa cicada culture medium production system according to claim 1, further comprising a transportation unit, wherein the transportation unit is a transportation conveyor belt or a manipulator (7).

3. A pupa cicada culture medium production system according to claim 1, wherein said cleaning instrument (2) is an ultrasonic cleaning instrument.

4. A pupa cicada culture medium production system according to claim 1, characterized in that said detection lamp (3) is an incandescent lamp.

5. The pupa cicada culture medium production system according to claim 1, wherein the feeding device (4A) comprises a feeding funnel (401), the feeding funnel (401) comprises a feeding body (4011) and a discharging channel (4012) arranged below the feeding body (4011), and an opening and closing switch (402) is arranged inside the discharging channel (4012) for opening or closing the discharging channel (4012).

6. A cicada culture medium production system according to claim 5, wherein the feeding device (4A) further comprises an infrared positioner (403), the infrared positioner (403) is connected with the weighing device (4B) and the switch (402) and is sleeved outside the discharging channel (4012);

the opening and closing switch (402) comprises a material blocking sheet arranged in the discharging channel and an electromagnetic valve partially embedded in the material blocking sheet; the infrared positioner (403) is connected with the electromagnetic valve, and the electromagnetic valve opens or closes the discharging channel by receiving signals of the infrared positioner (403).

7. A pupa cicada culture medium production system according to claim 5, wherein said feeding funnel (401) is detachably connected to said upper frame (101), said feeding funnel (401) is opened with a feeding hole (4014).

8. A cicada culture medium production system according to claim 1, wherein the sealing device (5) comprises a cam (501), a slide rod (502), a connecting rod (503) and a hinge component (504), a track is arranged under the cam (501), the slide rod (502) capable of sliding up and down along the track is arranged on the track, the slide rod (502) is reset by a reset device, the slide rod (502) is symmetrically provided with two connecting rods (503), hinge components (504) are further arranged on two sides of the cam (501), the hinge component (504) comprises a hinge shaft (5041) at the upper end of the hinge shaft and a C-shaped rod body (5042) arranged under the hinge shaft, a bulge (506) for preventing the rubber band from freely sliding off is further arranged on the C-shaped rod body (5042), one end of the connecting rod (503) is hinged under the slide rod (502), the other end of the cam (501) is hinged on a hinge component (504), when the cam (501) rotates, the sliding rod (502) is driven to move up and down at intervals, and the sliding rod (502) controls the opening and closing of the lower part of the hinge component (504) through a connecting rod.

9. A pupa cicada culture medium production system according to claim 8, wherein the cam (501) is connected with a motor through a belt, and the motor drives the cam to rotate.

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